Linearly independent vertices and minimum semidefinite rank

Philip Hackney; Benjamin Harris; Margaret Lay; Lon H. Mitchell; Sivaram K. Narayan; Amanda Pascoe

doi:10.1016/j.laa.2009.03.030

Linearly independent vertices and minimum semidefinite rank

Philip Hackney, Benjamin Harris, Margaret Lay, Lon H. Mitchell, Sivaram K. Narayan, Amanda Pascoe

Mathematics

Research output: Contribution to journal › Article › peer-review

38 Scopus citations

Abstract

We study the minimum semidefinite rank of a graph using vector representations of the graph and of certain subgraphs. We present a sufficient condition for when the vectors corresponding to a set of vertices of a graph must be linearly independent in any vector representation of that graph, and conjecture that the resulting graph invariant is equal to minimum semidefinite rank. Rotation of vector representations by a unitary matrix allows us to find the minimum semidefinite rank of the join of two graphs. We also improve upon previous results concerning the effect on minimum semidefinite rank of the removal of a vertex.

Original language	English
Pages (from-to)	1105-1115
Number of pages	11
Journal	Linear Algebra and Its Applications
Volume	431
Issue number	8
DOIs	https://doi.org/10.1016/j.laa.2009.03.030
State	Published - Sep 1 2009

Keywords

Join
Linearly independent vertices
Minimum semidefinite rank

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10.1016/j.laa.2009.03.030

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title = "Linearly independent vertices and minimum semidefinite rank",

abstract = "We study the minimum semidefinite rank of a graph using vector representations of the graph and of certain subgraphs. We present a sufficient condition for when the vectors corresponding to a set of vertices of a graph must be linearly independent in any vector representation of that graph, and conjecture that the resulting graph invariant is equal to minimum semidefinite rank. Rotation of vector representations by a unitary matrix allows us to find the minimum semidefinite rank of the join of two graphs. We also improve upon previous results concerning the effect on minimum semidefinite rank of the removal of a vertex.",

keywords = "Join, Linearly independent vertices, Minimum semidefinite rank",

author = "Philip Hackney and Benjamin Harris and Margaret Lay and Mitchell, {Lon H.} and Narayan, {Sivaram K.} and Amanda Pascoe",

note = "Funding Information: Corresponding author. Tel.: +1 989 774 3566; fax: +1 989 774 2414. E-mail address: sivaram.narayan@cmich.edu (S.K. Narayan). 1 Research supported in part by NSF Grant DMS 02-43674.",

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T1 - Linearly independent vertices and minimum semidefinite rank

AU - Hackney, Philip

AU - Harris, Benjamin

AU - Lay, Margaret

AU - Mitchell, Lon H.

AU - Narayan, Sivaram K.

AU - Pascoe, Amanda

N1 - Funding Information: Corresponding author. Tel.: +1 989 774 3566; fax: +1 989 774 2414. E-mail address: sivaram.narayan@cmich.edu (S.K. Narayan). 1 Research supported in part by NSF Grant DMS 02-43674.

PY - 2009/9/1

Y1 - 2009/9/1

N2 - We study the minimum semidefinite rank of a graph using vector representations of the graph and of certain subgraphs. We present a sufficient condition for when the vectors corresponding to a set of vertices of a graph must be linearly independent in any vector representation of that graph, and conjecture that the resulting graph invariant is equal to minimum semidefinite rank. Rotation of vector representations by a unitary matrix allows us to find the minimum semidefinite rank of the join of two graphs. We also improve upon previous results concerning the effect on minimum semidefinite rank of the removal of a vertex.

AB - We study the minimum semidefinite rank of a graph using vector representations of the graph and of certain subgraphs. We present a sufficient condition for when the vectors corresponding to a set of vertices of a graph must be linearly independent in any vector representation of that graph, and conjecture that the resulting graph invariant is equal to minimum semidefinite rank. Rotation of vector representations by a unitary matrix allows us to find the minimum semidefinite rank of the join of two graphs. We also improve upon previous results concerning the effect on minimum semidefinite rank of the removal of a vertex.

KW - Join

KW - Linearly independent vertices

KW - Minimum semidefinite rank

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U2 - 10.1016/j.laa.2009.03.030

DO - 10.1016/j.laa.2009.03.030

M3 - Article

AN - SCOPUS:67650588808

SN - 0024-3795

VL - 431

SP - 1105

EP - 1115

JO - Linear Algebra and Its Applications

JF - Linear Algebra and Its Applications

IS - 8

ER -

Linearly independent vertices and minimum semidefinite rank

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